can someone help me with this problem?
Using either regular functions or singularity functions determine the deflection at point C of the below beam.
Forces on the beam:
F1= 6 (k), F2 = 8 (k), F3 = 4 (k)
The reactions for the beam are:
R(A) = 10.08695652173913 (k), R(E) = 7.913043478260869 (k)
Assume: E = 29000 ksi and I = 750 in4
Show all work. Equations for shear, moment, slope of the elastic curve and deflection must be shown. Show your answer for the
deflection at C on the work.
To submit work for this problem type in the value of force F1 ______
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can someone help me with this problem?
Using either regular functions or singularity functions
determine the...
can someone help me with this civil engineering problem? For the below beam the loads are:...
can someone help me with this civil engineering problem?
For the below beam the loads are:
12 (k), 6 (k-ft.), 8 (k) and 5 (k).
The reactions for the beam are:
R(B) = 1.8571428571428572 (k), R(E) = 95.14285714285714 (k)
a) Draw the shear and moment diagram for the beam. Show all work
on the material turned into the ELC. Label all points.
b) Using singularity functions write the equations for shear and
moment for the beam. Show all work on...
Problem 2 For the beam and loading shown, using singularity functions, determine (a) the equation...
Problem 2 For the beam and loading shown, using singularity functions, determine (a) the equation of the elastic curve, (b) the deflection at point B, (c) the deflection at point D L/2 L/2 L/2
Problem 2 For the beam and loading shown, using singularity functions, determine (a) the equation of the elastic curve, (b) the deflection at point B, (c) the deflection at point D L/2 L/2 L/2
Problem 1. Establish the loading and moment functions for the beam using singularity functions. W max...
Problem 1. Establish the loading and moment functions for the beam using singularity functions. W max = 2 kN/m L WR = 1 kN/m TIITT - - >X 4 m- 4 m Problem 2. Take E=150 GPa and I=65x109 mm .Determine the maximum deflection of the beam. Use singularity functions. 2.20kN 800 N k am *2m ***227
For the continuous beam shown, compute the support reactions using the method of consistent defor...
draw the shear and bending moment diagrams also please
For the continuous beam shown, compute the support reactions using the method of consistent deformations by taking the reaction at support B as redundant. Also, draw the shear and bending moment diagrams. The beam is subjected to a 20 kips concentrated load at the middle of the left span plus a 1.5 inch settlement of support B. Use deflection formulas to determine deflections at B. Assume E-29000 ksi and I-750 in...
Problem 4 Use the conjugate beam method to determine the slope and deflection at point B...
Problem 4 Use the conjugate beam method to determine the slope and deflection at point B of the beam shown. E- 29,000 ksi. I-3,000 in4. 2 k/ft 30 ft
Problem 3: The statically indeterminate propped cantilever beam is supported by a roller at A and...
Problem 3: The statically indeterminate propped cantilever beam is supported by a roller at A and is fixed at B. The beam is subject a uniformly distributed load and concentrated moment as shown. E is 29000 ksi and 1 is 400 in Determine the equation of the moment as a function of x. b) a) Determine the equations of the beam slope and deflection as a functions ofx (do not substitute the values of E and I c) Find slope...
Section 5. Problem 13 (25 pts.) For the below beam the loads are: 10 (k), 3...
Section 5. Problem 13 (25 pts.) For the below beam the loads are: 10 (k), 3 (k-ft.). 9 (k) and 5 (k). The reactions for the beam are: R(B) 3.142857142857143 (k), R(E) - 56.857142857142854 (K) a) Draw the shear and moment diagram for the beam. Show all work on the material turned into the ELC. Label all points. b) Using singularity functions write the equations for shear and moment for the beam. Show all work on the material turned into...
5. Use the virtual work method using visual integration and only bending deformations to find the indicated deflec...
5. Use the virtual work method using visual integration and only bending deformations to find the indicated deflections/rotations in each structure. Calculate the deflection at point D and the rotation at point B.I-1.46-10'mm and E 200 GPa. (20pts) 80 KN Moment release 60 KN 5 m 5 m 5 m 5 m 6. Use the virtual work method include both shear and bending deformations to determine the vertical deflection and rotation at point B. E-29,000 ksi; G 11000 ksi 1...
4. Use singularity function method to solve the problem. The cantilever beam has modulus of elasticity E and bending moment of inertia I. (1) Draw the free body diagram of the beam (2pts). (2) Fin...
4. Use singularity function method to solve the problem. The cantilever beam has modulus of elasticity E and bending moment of inertia I. (1) Draw the free body diagram of the beam (2pts). (2) Find the reactions at the supports (3pts). (3) Find the loading (intensity of load) of the beam in singularity function form (4 pts). (4) What is the vertical shear function like? (4pts) (5) Houw much is the moment? (4pts) (6) Express the elastic curve of the...
Problem 1. A) Determine the maximum normal and shear stresses at the hollow circular cross-section of...
Problem 1. A) Determine the maximum normal and shear stresses at the hollow circular cross-section of the shaft. Also, calculate the maximum deflection in the shaft. A is 40 in from point c. Show work. Steel: E=29,000 ksi and G=11,000 ksi. The shear stress in the shift is caused by torsion and transfer shear. 40 in 15 16 6 in. 8 in. Ro 50 lb 15 lb Ri B) Formulate the design optimization problem using the 5 steps given in...
can someone help me with this civil engineering problem?
For the below beam the loads are:
12 (k), 6 (k-ft.), 8 (k) and 5 (k).
The reactions for the beam are:
R(B) = 1.8571428571428572 (k), R(E) = 95.14285714285714 (k)
a) Draw the shear and moment diagram for the beam. Show all work
on the material turned into the ELC. Label all points.
b) Using singularity functions write the equations for shear and
moment for the beam. Show all work on...
Problem 2 For the beam and loading shown, using singularity functions, determine (a) the equation of the elastic curve, (b) the deflection at point B, (c) the deflection at point D L/2 L/2 L/2
Problem 2 For the beam and loading shown, using singularity functions, determine (a) the equation of the elastic curve, (b) the deflection at point B, (c) the deflection at point D L/2 L/2 L/2
Problem 1. Establish the loading and moment functions for the beam using singularity functions. W max = 2 kN/m L WR = 1 kN/m TIITT - - >X 4 m- 4 m Problem 2. Take E=150 GPa and I=65x109 mm .Determine the maximum deflection of the beam. Use singularity functions. 2.20kN 800 N k am *2m ***227
draw the shear and bending moment diagrams also please
For the continuous beam shown, compute the support reactions using the method of consistent deformations by taking the reaction at support B as redundant. Also, draw the shear and bending moment diagrams. The beam is subjected to a 20 kips concentrated load at the middle of the left span plus a 1.5 inch settlement of support B. Use deflection formulas to determine deflections at B. Assume E-29000 ksi and I-750 in...
Problem 4 Use the conjugate beam method to determine the slope and deflection at point B of the beam shown. E- 29,000 ksi. I-3,000 in4. 2 k/ft 30 ft
Problem 3: The statically indeterminate propped cantilever beam is supported by a roller at A and is fixed at B. The beam is subject a uniformly distributed load and concentrated moment as shown. E is 29000 ksi and 1 is 400 in Determine the equation of the moment as a function of x. b) a) Determine the equations of the beam slope and deflection as a functions ofx (do not substitute the values of E and I c) Find slope...
Section 5. Problem 13 (25 pts.) For the below beam the loads are: 10 (k), 3 (k-ft.). 9 (k) and 5 (k). The reactions for the beam are: R(B) 3.142857142857143 (k), R(E) - 56.857142857142854 (K) a) Draw the shear and moment diagram for the beam. Show all work on the material turned into the ELC. Label all points. b) Using singularity functions write the equations for shear and moment for the beam. Show all work on the material turned into...
5. Use the virtual work method using visual integration and only bending deformations to find the indicated deflections/rotations in each structure. Calculate the deflection at point D and the rotation at point B.I-1.46-10'mm and E 200 GPa. (20pts) 80 KN Moment release 60 KN 5 m 5 m 5 m 5 m 6. Use the virtual work method include both shear and bending deformations to determine the vertical deflection and rotation at point B. E-29,000 ksi; G 11000 ksi 1...
4. Use singularity function method to solve the problem. The cantilever beam has modulus of elasticity E and bending moment of inertia I. (1) Draw the free body diagram of the beam (2pts). (2) Find the reactions at the supports (3pts). (3) Find the loading (intensity of load) of the beam in singularity function form (4 pts). (4) What is the vertical shear function like? (4pts) (5) Houw much is the moment? (4pts) (6) Express the elastic curve of the...
Problem 1. A) Determine the maximum normal and shear stresses at the hollow circular cross-section of the shaft. Also, calculate the maximum deflection in the shaft. A is 40 in from point c. Show work. Steel: E=29,000 ksi and G=11,000 ksi. The shear stress in the shift is caused by torsion and transfer shear. 40 in 15 16 6 in. 8 in. Ro 50 lb 15 lb Ri B) Formulate the design optimization problem using the 5 steps given in...
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